Supplementing ice core time series at Colle Gnifetti with a 3D full stokes ice flow model using Elmer/Ice

The cold glacier saddle Colle Gnifetti (CG) is the unique drilling site in the European Alps offering ice core records substantially exceeding the instrumental period. However, the full exploitation of the unique potential of this site is hampered by depositional noise and, combined with a complex f...

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Main Authors: Licciulli, Carlo, Bohleber, Pascal, Wagenbach, Dietmar, Eisen, Olaf, Gagliardini, Olivier, Hoelzle, Martin
Format: Conference Object
Language:unknown
Published: Platform Geosciences, Swiss Academy of Science, SCNAT 2015
Subjects:
ice core
Online Access:https://epic.awi.de/id/eprint/39079/
https://hdl.handle.net/10013/epic.49642
id ftawi:oai:epic.awi.de:39079
record_format openpolar
spelling ftawi:oai:epic.awi.de:39079 2024-09-15T18:11:54+00:00 Supplementing ice core time series at Colle Gnifetti with a 3D full stokes ice flow model using Elmer/Ice Licciulli, Carlo Bohleber, Pascal Wagenbach, Dietmar Eisen, Olaf Gagliardini, Olivier Hoelzle, Martin 2015-11-21 https://epic.awi.de/id/eprint/39079/ https://hdl.handle.net/10013/epic.49642 unknown Platform Geosciences, Swiss Academy of Science, SCNAT Licciulli, C. , Bohleber, P. , Wagenbach, D. , Eisen, O. orcid:0000-0002-6380-962X , Gagliardini, O. and Hoelzle, M. (2015) Supplementing ice core time series at Colle Gnifetti with a 3D full stokes ice flow model using Elmer/Ice , Swiss Geoscience Meeting, Basel, 20 November 2015 - 21 November 2015 . hdl:10013/epic.49642 EPIC3Swiss Geoscience Meeting, Basel, 2015-11-20-2015-11-21Platform Geosciences, Swiss Academy of Science, SCNAT Conference notRev 2015 ftawi 2024-06-24T04:13:16Z The cold glacier saddle Colle Gnifetti (CG) is the unique drilling site in the European Alps offering ice core records substantially exceeding the instrumental period. However, the full exploitation of the unique potential of this site is hampered by depositional noise and, combined with a complex flow regime, upstream-effects. Here we present results from an ongoing new sophisticated flow modeling attempt, i.e. 3D full stokes with consideration of firn rheology, fully thermomechanically coupled, utilizing the finite element software Elmer/Ice. In view of our latest ice core drilled to bedrock in 2013, a major objective is to map source trajectories of existing ice core sites in order to evaluate potential upstream effects. An additional focus is to assist in finding a reliable age scale, especially targeting depths where annual layers can no more be counted. This includes the calculation of isochronous surfaces for intercomparison of different drilling sites within the CG multi core array. Previous numerical ice flow models of CG have been developed by W. Haeberli, S. Wagner, M. Lüthi (Lüthi & Funk 2000, 2001) and H. Konrad (Konrad et al. 2013). The level of accuracy of these previous works was mainly limited by the not well known bedrock topography and englacial temperatures. However, since the work of M. Lüthi several new temperature profiles are available (Hoelzle et al. 2011) and additional GPR measurements have been performed extensively (Bohleber 2011). Ongoing measurements will provide more precise information about the surface flow velocity, surface topography and their stationarity. In addition, two new ice cores have been drilled on CG, in 2005 and 2013. The 2013 drilling project employs a unique approach of combining multiple state-of-the-art methods in ice core analysis, for example new ultra-high resolution impurity analysis for detecting highly thinned annual layers as well as analysis of ice microstructure. All these new data sets together with the nowadays higher available computing power ... Conference Object ice core Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
institution Open Polar
collection Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
op_collection_id ftawi
language unknown
description The cold glacier saddle Colle Gnifetti (CG) is the unique drilling site in the European Alps offering ice core records substantially exceeding the instrumental period. However, the full exploitation of the unique potential of this site is hampered by depositional noise and, combined with a complex flow regime, upstream-effects. Here we present results from an ongoing new sophisticated flow modeling attempt, i.e. 3D full stokes with consideration of firn rheology, fully thermomechanically coupled, utilizing the finite element software Elmer/Ice. In view of our latest ice core drilled to bedrock in 2013, a major objective is to map source trajectories of existing ice core sites in order to evaluate potential upstream effects. An additional focus is to assist in finding a reliable age scale, especially targeting depths where annual layers can no more be counted. This includes the calculation of isochronous surfaces for intercomparison of different drilling sites within the CG multi core array. Previous numerical ice flow models of CG have been developed by W. Haeberli, S. Wagner, M. Lüthi (Lüthi & Funk 2000, 2001) and H. Konrad (Konrad et al. 2013). The level of accuracy of these previous works was mainly limited by the not well known bedrock topography and englacial temperatures. However, since the work of M. Lüthi several new temperature profiles are available (Hoelzle et al. 2011) and additional GPR measurements have been performed extensively (Bohleber 2011). Ongoing measurements will provide more precise information about the surface flow velocity, surface topography and their stationarity. In addition, two new ice cores have been drilled on CG, in 2005 and 2013. The 2013 drilling project employs a unique approach of combining multiple state-of-the-art methods in ice core analysis, for example new ultra-high resolution impurity analysis for detecting highly thinned annual layers as well as analysis of ice microstructure. All these new data sets together with the nowadays higher available computing power ...
format Conference Object
author Licciulli, Carlo
Bohleber, Pascal
Wagenbach, Dietmar
Eisen, Olaf
Gagliardini, Olivier
Hoelzle, Martin
spellingShingle Licciulli, Carlo
Bohleber, Pascal
Wagenbach, Dietmar
Eisen, Olaf
Gagliardini, Olivier
Hoelzle, Martin
Supplementing ice core time series at Colle Gnifetti with a 3D full stokes ice flow model using Elmer/Ice
author_facet Licciulli, Carlo
Bohleber, Pascal
Wagenbach, Dietmar
Eisen, Olaf
Gagliardini, Olivier
Hoelzle, Martin
author_sort Licciulli, Carlo
title Supplementing ice core time series at Colle Gnifetti with a 3D full stokes ice flow model using Elmer/Ice
title_short Supplementing ice core time series at Colle Gnifetti with a 3D full stokes ice flow model using Elmer/Ice
title_full Supplementing ice core time series at Colle Gnifetti with a 3D full stokes ice flow model using Elmer/Ice
title_fullStr Supplementing ice core time series at Colle Gnifetti with a 3D full stokes ice flow model using Elmer/Ice
title_full_unstemmed Supplementing ice core time series at Colle Gnifetti with a 3D full stokes ice flow model using Elmer/Ice
title_sort supplementing ice core time series at colle gnifetti with a 3d full stokes ice flow model using elmer/ice
publisher Platform Geosciences, Swiss Academy of Science, SCNAT
publishDate 2015
url https://epic.awi.de/id/eprint/39079/
https://hdl.handle.net/10013/epic.49642
genre ice core
genre_facet ice core
op_source EPIC3Swiss Geoscience Meeting, Basel, 2015-11-20-2015-11-21Platform Geosciences, Swiss Academy of Science, SCNAT
op_relation Licciulli, C. , Bohleber, P. , Wagenbach, D. , Eisen, O. orcid:0000-0002-6380-962X , Gagliardini, O. and Hoelzle, M. (2015) Supplementing ice core time series at Colle Gnifetti with a 3D full stokes ice flow model using Elmer/Ice , Swiss Geoscience Meeting, Basel, 20 November 2015 - 21 November 2015 . hdl:10013/epic.49642
_version_ 1810449475095756800

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